Department of Mechanics, Politecnico di Torino, Turin, Italy.
Department of Cardiac Surgery, European Hospital, Rome, Italy.
J Thorac Cardiovasc Surg. 2013 Apr;145(4):999-1003. doi: 10.1016/j.jtcvs.2012.03.060. Epub 2012 Apr 13.
The present in vitro study was designed to ascertain whether the presence of sinuses of Valsalva in the aortic root were able to regulate the valve effective orifice area and modulate the gradient across the valve independently from root compliance.
Four different root configurations were prepared. Of the 4, 2 were silicon configurations with the same compliance, 1 with and 1 without sinuses of Valsalva, in which a 25-mm Solo stentless aortic valve was sutured inside. The other 2 configurations were obtained by substituting the upper part of the root with a straight Dacron graft or with a Valsalva graft in a remodeling fashion to reproduce the surgical situation. All roots were mounted in a pulse duplicator to measure the pressure decrease across the valve and effective orifice area at different cardiac outputs.
With increasing cardiac output up to 7 L/min, an increase in the pressure decrease across the valve was evident in both configurations without sinuses of Valsalva (7.90 ± 1.7 and 11 mm Hg ± 0.1 mm Hg, respectively) but not in those with sinuses (2.87 ± 0.5 and 2.42 mm Hg ± 0.5 mm Hg). Similarly, with increasing cardiac output, the effective orifice area increased significantly only in the roots with sinuses (5.13 ± 0.5 and 5.47 ± 0.5 vs 3.06 ± 0.3 and 2.50 cm(2) ± 0.02 cm(2), respectively).
When the cardiac output is increased to greater than the resting physiologic values, the presence of sinuses of Valsalva, independently of root compliance, prevents an increase in the pressure decrease across the valve by way of an increase of the effective orifice area.
本体外研究旨在确定主动脉根部的瓦氏窦是否能够调节瓣有效开口面积,并独立于根部顺应性调节瓣跨瓣梯度。
制备了 4 种不同的根部构型。其中 2 种为硅树脂构型,具有相同的顺应性,1 种有瓦氏窦,1 种无瓦氏窦,均在内缝合了 25mm 的 Solo 无支架主动脉瓣。另外 2 种构型通过用直型涤纶移植物或瓦氏窦移植物替代根部的上部来获得,以重塑的方式复制手术情况。所有根部均安装在脉动复制器中,以在不同心输出量下测量瓣跨瓣压降和有效开口面积。
随着心输出量增加到 7L/min,无瓦氏窦的两种构型的瓣跨瓣压降均明显增加(分别为 7.90±1.7 和 11mmHg±0.1mmHg),但有瓦氏窦的两种构型则没有(分别为 2.87±0.5 和 2.42mmHg±0.5mmHg)。同样,随着心输出量的增加,只有有瓦氏窦的根部的有效开口面积显著增加(分别为 5.13±0.5 和 5.47±0.5 比 3.06±0.3 和 2.50cm2±0.02cm2)。
当心输出量增加到大于静息生理值时,瓦氏窦的存在,独立于根部顺应性,通过增加有效开口面积来防止瓣跨瓣压降的增加。
